Loss of Bcl-2 expression in Barrett's dysplasia and adenocarcinoma is associated with tumor progression and worse survival but not with response to neoadjuvant chemoradiation.

Esophageal adenocarcinoma arising on a background of Barrett's esophagus is increasing in incidence. A molecular understanding of both the progression of Barrett's esophagus and the factors determining the response of adenocarcinoma to neoadjuvant therapy is required, and this study focused on the role of proteins regulated by the bcl-2 family of genes, which are important regulators of programmed cell death (apoptosis). In total, 48 patients (36 men, 12 women) with Barrett's adenocarcinoma were studied. All patients received preoperative chemoradiotherapy followed by surgery. Bcl-2, bax and bcl-x protein expression were detected by standard avidin-biotin peroxidase method. Bcl-2, bax and bcl-x expression were detected in 84%, 80%, and 76%, respectively, of normal squamous mucosa. An increasing degree of dysplasia in Barrett's mucosa both before and after chemoradiotherapy was significantly associated with a reduction of bcl-2 expression (P = 0.03 and 0.009, respectively). Bcl-2 expression was significantly associated with tumor differentiation (P = 0.03) and a trend towards earlier T stage (P = 0.08), but not with nodal status. Pre-therapeutic bcl-2, bax and bcl-x protein expression (27%, 75%, and 87.5%, respectively) were not associated with tumor response or resistance to therapy. Bcl-2-positive patients had a significantly improved survival compared with bcl-2-negative tumors. A significant reduction of bcl-2 expression is associated with the progression of Barrett's mucosa to adenocarcinoma. Bcl-2 expression was associated with improved survival. Preoperative chemoradiotherapy induces expression of bax and bcl-x protein. The pretreatment expression of bcl-2 and related proteins did not predict response or resistance to neoadjuvant chemoradiotherapy, suggesting that regulators of apoptosis alone do not determine the response of Barrett's adenocarcinoma to neoadjuvant therapy.

Suppression of macrophage nitric oxide production by melanoma: mediation by a melanoma-derived product.

The tumour-bearing state is known to induce immune dysfunction that contributes to increased infectious complications and tumour progression. However, the mechanisms underlying this immunosuppression remain unclear. This study investigated in a murine model the effects of melanoma growth on nitric oxide (NO) production by peritoneal macrophages in vivo and in vitro. B16 and K1735 melanoma cells were inoculated subcutaneously into C57BL/6 and C3H/HeN mice, respectively. Stimulated NO production by elicited peritoneal macrophages was examined in control and melanoma- bearing mice. An in vitro system was established to assess the effects of co-culturing melanoma cells (B16 and K1735) or melanoma-conditioned medium with normal peritoneal macrophages on subsequent NO production. NO production was significantly suppressed in macrophages from melanoma-bearing mice. Co-culture of normal macrophages with melanoma cells in a transwell system or with melanoma-conditioned media in vitro reproduced the defects observed in vivo without affecting macrophage viability, pointing to a melanoma-derived product as the basis for the observed suppression of NO production. This inhibition required RNA and protein synthesis and was dose and time dependent. Using inhibition profiles and neutralizing antibodies, it was demonstrated that this melanoma inhibitory activity was distinct from known NO inhibitors. Preliminary characterization attributed this activity to a melanoma-secreted protein moiety.

Altered macrophage intracellular signaling induced by protein-calorie malnutrition.

Protein-calorie malnutrition (PCM) contributes to increased morbidity and mortality through impairment of host defense mechanisms and reduced macrophage function. The present study examined alterations in macrophage intracellular signaling associated with the impairment in host defense capabilities. Mice were randomized to either control (regular diet) or protein-free diets (PCM) and pair-fed for 1 week. Following endotoxin stimulation, peritoneal macrophages from PCM mice produce significantly less TNF-alpha and IL-6 product and had significantly less cell-associated IL-6 when compared to macrophages from control mice. Similarly, macrophages from PCM mice had a significant reduction in mRNA levels for both TNF-alpha and IL-6. Other macrophage intracellular signaling mechanisms, such as calcium flux and tyrosine kinase phosphorylation were also altered by PCM. The etiology of PCM-induced defects in macrophage function and intracellular signaling remain unknown but may be related to the neuroendocrine response to PCM.